EC:6.5.1.2 - FACTA Search

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Query: EC:6.5.1.2 (DNA ligase)
2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

O6-Methylguanine-DNA methyltransferase (O6-MT) has been described as a DNA repair enzyme that reverses alkylation damage at the O6 position of guanine in DNA. We demonstrate that the concentration of this protein decreases immediately prior to DNA synthesis in cultured chick hepatocytes. If intracellular levels are experimentally depleted by treatment of cultures with O6-methylguanine, DNA synthesis occurs as an associated resultant. This effect is dose dependent and can be followed by discernible morphological changes of organoids in culture. Increased and altered growth caused by O6-methylguanine was quantified and was also found to be dose dependent. Therefore, O6-MT may play a role in the regulation of DNA synthesis.
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PMID:Relationship between the depletion of O6-methylguanine-DNA methyltransferase by O6-methylguanine and the stimulation of DNA synthesis and growth of cultured chick hepatocytes. 173 70

The E. coli Formamidopyrimidine-DNA Glycosylase (FPG protein), a monomeric DNA repair enzyme of 30.2 kDa, was purified to homogeneity in large quantities. The FPG protein excises imidazole ring-opened purines and 8-hydroxyguanine residues from DNA. Besides DNA glycosylase activity, the FPG protein is endowed with an EDTA-resistant activity which nicks DNA at apurinic/apyrimidic sites (AP sites). In contrast, DNAs containing chemically reduced AP sites are not incised by the FPG protein. However, the DNA glycosylase activity of the FPG protein is strongly inhibited in the presence of a purified synthetic 24 base-pair double-stranded oligonucleotide which contains a single apurinic site transformed chemically through borohydride reduction into a ring-opened deoxyribose derivative. The ability of the FPG protein to form a complex with this synthetically modified DNA was studied by electrophoresis in non-denaturing polyacrylamide gels. The FPG protein specifically binds the double-stranded oligonucleotide containing an apurinic site previously reduced in the presence of sodium borohydride. The complex was identified as a single retardation band on non-denaturing polyacrylamide gel electrophoresis. Complex formation is reversible and an apparent dissociation constant, KDapp, of 2.6 x 10(-10) M was determined. In contrast, no such retardation band was obtained between the FPG protein and double-stranded DNA containing an intact apurinic site or single-stranded DNA containing either an intact or a reduced apurinic site.
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PMID:DNA containing a chemically reduced apurinic site is a high affinity ligand for the E. coli formamidopyrimidine-DNA glycosylase. 174 Dec 72

The PHR1 gene of Saccharomyces cerevisiae encodes the DNA repair enzyme photolyase. Transcription of PHR1 increases in response to treatment of cells with 254-nm radiation and chemical agents that damage DNA. We report here the identification of a damage-responsive DNA binding protein, termed photolyase regulatory protein (PRP), and its cognate binding site, termed the PHR1 upstream repression sequence, that together regulate induction of PHR1 transcription after DNA damage. PRP activity, monitored by electrophoretic-mobility-shift assay, was detected in cells during normal growth but disappeared within 30 min after irradiation. Copper-phenanthroline footprinting of PRP-DNA complexes revealed that PRP protects a 39-base-pair region of PHR1 5' flanking sequence beginning 40 base pairs upstream from the coding sequence. A prominent feature of the foot-printed region is a 22-base-pair palindrome. Deletion of the PHR1 upstream repression sequence increased the basal level expression of PHR1 in vivo and decreased induction after exposure of cells to UV radiation or methyl methanesulfonate, whereas insertion of the PRP binding site between the CYC1 upstream activation sequence and "TATA" sequence reduced basal level expression and conferred damage responsiveness upon a reporter gene. Thus these observations establish that PRP is a damage-responsive repressor of PHR1 transcription.
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PMID:A damage-responsive DNA binding protein regulates transcription of the yeast DNA repair gene PHR1. 176 39

It is well known that resistance in tumor cells to alkylating agents and, in particular, chloroethylnitrosoureas (CENUs), which are widely used in the chemotherapy of brain tumors, correlate well with activity of the DNA repair enzyme O6-alkylguanine-DNA alkyltransferase (O6-AT). We measured O6-AT activity in human brain tumors in order to obtain basic knowledge of whether or not CENU chemotherapy can be applied selectively on brain tumors. The subjects included 17 gliomas (seven malignant astrocytomas, two glioblastomas, two medulloblastomas, two oligodendrogliomas, two ependymomas, one fibrillary astrocytoma, one primitive neuroectodermal tumor) and five non-glial tumors (three meningiomas, two neurinomas). The value of O6-AT activity for the gliomas varied widely and indicated 111 +/- 65 fmol of 3H-methyl adducts transferred/mg protein extract/hr (mean +/- S.D., range 0-258, 18 tumors), while the non-glial tumors showed a relatively high value of 270 +/- 43 fmol/mg/hr (range 225-330, 5 tumors). A significant difference in the O6-AT activity was noted between the gliomas and the nonglial tumors at the p-value of 0.001. Six (38%) out of 17 glioma cases showed a value below 100 fmol/mg/hr and four cases (24%) a value below 60 fmol/mg/hr. These results provide a biological basis for applying CENU chemotherapy on glioma patients with a lower value of O6-AT enzyme.
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PMID:O6-alkylguanine-DNA alkyltransferase activity in human brain tumors. 180 9

UvrA is the ATPase subunit of the DNA repair enzyme (A)BC excinuclease. The amino acid sequence of this protein has revealed, in addition to two zinc fingers, three pairs of nucleotide binding motifs each consisting of a Walker A and B sequence. We have conducted site-specific mutagenesis, ATPase kinetic analyses, and nucleotide binding equilibrium measurements to correlate these sequence motifs with activity. Replacement of the invariant Lys by Ala in the putative A sequences indicated that K37 and K646 but not K353 are involved in ATP hydrolysis. In contrast, substitution of the invariant Asp by Asn in the B sequences at positions D238, D513, or D857 had little effect on the in vivo activity of the protein. Nucleotide binding studies revealed a stoichiometry of 0.5 ADP/UvrA monomer while kinetic measurements on wild-type and mutant proteins showed that the active form of UvrA is a dimer with 2 catalytic sites which interact in a positive cooperative manner in the presence of ADP; mutagenesis of K37 but not of K646 attenuated this cooperativity. Loss of ATPase activity was about 75% in the K37A, 86% in the K646A mutant, and 95% in the K37A-K646A double mutant. These amino acid substitutions had only a marginal effect on the specific binding of UvrA to damaged DNA but drastically reduced its ability to deliver UvrB to the damage site. We find that the deficient UvrB loading activity of these mutant UvrA proteins results from their inability to associate with UvrB in the form of (UvrA)2(UvrB)1 complexes. We conclude that UvrA forms a dimer with two ATPase domains involving K37 and K646 and that the work performed by ATP hydrolysis is the delivery of UvrB to the damage site on DNA.
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PMID:Site-specific mutagenesis of conserved residues within Walker A and B sequences of Escherichia coli UvrA protein. 182 50

DNA polymerase beta (pol beta) is a constitutively expressed DNA repair enzyme in vertebrate cells. Yet, it had been shown previously that the pol beta mRNA level increases in Chinese hamster ovary (CHO) cells within 4 h after treatment with several monofunctional DNA damaging agents, notably, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). Herein we report that a transfected pol beta promoter fusion gene is activated by MNNG treatment of CHO cells; mRNA from the transfected gene is approximately 10-fold higher in treated cells than in untreated cells 16 h after treatment. This activation is mediated through the decanucleotide palindromic element GTGACGTCAC at positions -49 to -40 in the "TATA-less" core promoter. This element, which is similar to the ATF/CREB transcription factor-binding site in a number of mammalian genes, forms the center of a strong protein-binding site for CHO cell nuclear extract proteins. Mutated pol beta promoter fusion genes lacking the element fail to bind protein at this site and fail to respond to MNNG treatment of cells.
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PMID:The ATF/CREB transcription factor-binding site in the polymerase beta promoter mediates the positive effect of N-methyl-N'-nitro-N-nitrosoguanidine on transcription. 182 4

The mammalian DNA repair enzyme beta-polymerase is encoded by a single-copy gene that is expressed in all tissues and cell lines studied to date. A protein fraction with high binding affinity for an ATF/CREB-like binding element, GTGACGTCAC, at -49 to -40 in the core beta-polymerase promoter has been purified to near-homogeneity from a nuclear extract of bovine testes. The major binding activity, as monitored by gel mobility shift assay, is recovered in 20% yield by a procedure involving oligonucleotide affinity chromatography. The purified protein yields DNase I footprinting and gel shift binding patterns indistinguishable from the activity in crude extracts. The final fraction activates transcription in an in vitro transcription reaction. The native molecular weight of the purified binding activity is about 100-120K as measured by gel filtration. SDS-PAGE of the purified fraction revealed that it contains several polypeptides in the molecular weight range of 30-52K, yet two of these peptides (Mr 49K and 52K) are predominant. Specific binding to the palindrome is salt-sensitive and is consistent with the formation of nine ion pairs (from log KA vs log KCl plots) and has a KA at 200 mM KCl of 5.8 X 10(11) M-1. Kinetic studies with synthetic oligonucleotides as binding ligands indicate that the purified protein can bind tighter to or discriminate between the beta-polymerase ATF/CREB element and similar elements derived from somatostatin and chorionic gonadotropin genes.
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PMID:Mammalian beta-polymerase promoter: large-scale purification and properties of ATF/CREB palindrome binding protein from bovine testes. 182 81

The gene for the mammalian DNA repair enzyme DNA polymerase beta (beta-pol) is constitutively expressed in most cells, but is regulated in a tissue-specific fashion and can be induced in response to some types of DNA damaging agents. The promoter for the human beta-pol gene has been characterized and found to be TATA-less, but it does have multiple GC boxes and one ATF/CRE-binding site located within 50 residues 5' of the major mRNA start site. The ATF/CRE-binding site has been found to be essential for activity of the cloned promoter. We report that a bovine testes DNA-binding protein with specificity for the beta-pol promoter ATF/CRE-binding site is phosphorylated in vivo and contains several phosphorylation sites. Sequence specific DNA-binding by the purified protein is reduced when the natural protein is dephosphorylated or when it is hyperphosphorylated by protein kinase A (cKA) in vitro. These results suggest the possibility that phosphorylation systems may change binding of this ATF/CRE-binding protein to the beta-pol promoter and in turn modulate the promoter. Possible correlation of the results with transient expression activity of the cloned beta-pol promoter fusion gene was obtained in 293 cells. Cotransfection with a cKA expression plasmid to elevate phosphorylation was found to strongly reduce promoter activity.
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PMID:Mammalian beta-polymerase promoter: phosphorylation of ATF/CRE-binding protein and regulation of DNA binding. 182 17

When animals are treated with carcinogenic agents that alkylate O6-guanine residues, the incidence of tumors in specific tissues often relates inversely to the level of the DNA repair enzyme O6-methylguanine-DNA methyltransferase (MGMT) present in the tissue. Similarly, the hypersensitivity to anticancer chloroethylnitrosoureas of some human tumor cell lines is believed to result from their deficiency in MGMT. We have undertaken a comprehensive investigation of MGMT expression in a panel of nine characterized human glioma cell lines. Methyltransferase activity determined by incubating protein extracts of these glioma lines with [3H]methylated DNA ranged from undetectable in six lines (the Mer- phenotype) to greater than 0.8 pmol/mg in two lines (U-373 MG and D-392 MG). MGMT protein was undetectable in Western blots of the Mer- cell extracts probed with specific anti-MGMT monoclonal antibodies. Consistent with these results, steady-state levels of MGMT mRNA, determined by Northern blot analysis, were detectable only in the three Mer+ glioma lines (U-373 MG, D-392 MG, D-263 MG). Southern analysis of EcoRI-digested DNA probed with MGMT cDNA revealed no amplification, rearrangement or deletions of the MGMT gene in any of the glioma cell lines. This is the first report that examines MGMT expression at the biochemical, molecular and genetic levels in a particular tumor type. These studies suggest that transcriptional regulation is the basis of the Mer- phenotype in these malignant human glioma cell lines, since no gross structural or quantitative abnormalities of the MGMT gene were seen in the phenotypically Mer- lines.
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PMID:Expression of O6-methylguanine-DNA methyltransferase in malignant human glioma cell lines. 189 34

Endonuclease V, a pyrimidine dimer-specific DNA repair enzyme, was chemically modified by reductive methylation, a technique that specifically methylates primary amino groups. Upon reaction of endonuclease V with [14C]formaldehyde (14CH2O) in the presence of the reducing agent sodium cyanoborohydride (Na-CNBH3), it was discovered that 0.8 methylation/endonuclease V molecule was required to reduce both the glycosylase and the phosphodiester lyase activities by 70-80%. Pyrimidine dimer-specific binding was not eradicated at a level of methylation equivalent to 0.8 CH3/endonuclease V molecule but was eradicated at higher levels of methylation. Endonuclease V that had been modified with an average of 1.6 CH3/molecule was digested with Staphylococcus aureus strain V8 protease and the peptides subsequently separated by reverse-phase high performance liquid chromatography. Radiolabel was found exclusively on the peptide including the amino terminus, as determined by the percent amino acid composition. Neither intact CH3-endonuclease V nor radiolabeled peptides were able to be sequenced by Edman degradation indicating blockage of the amino terminus by methylation. This study shows strong evidence for the unusual involvement of the alpha NH2 moiety in the chemical mechanisms of endonuclease V. A reaction mechanism that incorporates these findings is presented.
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PMID:Reductive methylation of the amino terminus of endonuclease V eradicates catalytic activities. Evidence for an essential role of the amino terminus in the chemical mechanisms of catalysis. 189 43

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